Global ETD Search

291	Strategy for the sustainable development of thermal springs : a case study for Sagole in Limpopo Province Tshibalo, Azwindini Ernest 06 1900 (has links) This research aims to investigate the diverse uses of thermal springs and to develop strategies to identify those most appropriate for Sagole with due regard given to the economic, social and environmental aspects. The aim specifically determines the optimum use of the Sagole thermal spring. The following potential uses for Sagole were identified, discussed and analysed in terms of the environmental, social and economic aspects: tourism, aquaculture and geothermal education. The potential cost and benefit of each were also analysed. According to the research finding, the establishment of a Geothermal Education Centre appears to be the most sustainable project with the highest Feasibility Index. It is followed by Health Tourism and then Aquaculture. / Environmental Sciences / D. Phil. (Environmental Management) Thermal springs Health tourism Aquaculture Geothermal education Social and economic impact Development strategy
292	A Broad View on the Interpretation of Electromagnetic Data (VLF, RMT, MT, CSTMT) / En bred syn på Tolkning av Elektromagnetiska Data (VLF, RMT, MT, CSTMT) Oskooi, Behrooz January 2004 (has links) The resolution power of single Very Low Frequency (VLF) data and multi-frequency Radiomagnetotelluric (RMT) data in delineating conductive structures typical for the sedimentary cover and crystalline basement in Scandinavia is studied with a view to future developments of the technique to increasing the frequency range into the LW radio band. Airborne and ground VLF data are interpreted and correlated with RMT measurements made on the ground to better understand the resolution power of VLF data. To aid in this understanding single and multifrequency VLF and RMT responses for some typical resistivity structures are analyzed. An analytic model is presented for obtaining unique transfer functions from measurements of the electromagnetic components on board an air-plane or on the ground. Examples of 2D inversion of ground and airborne VLF profiles in Sweden are shown to demonstrate the quantitative interpretation of VLF data in terms of both lateral and depth changes of the resistivity in the uppermost crust. Geothermal resources are ideal targets for Electromagnetic (EM) methods since they produce strong variations in underground electrical resistivity. Modelling of Magnetotelluric (MT) data in SW Iceland indicates an alteration zone beneath the surface, where there are no obvious geothermal manifestations, in between Hengill and Brennisteinsfjoll geothermal systems. It suggests that a hydrothermal fluid circulation exists at depth. It also proves that the MT method, with its ability to map deep conductive features can play a valuable role in the reconnaissance of deep geothermal systems in active rift regimes such as in Iceland. A damped nonlinear least-squares inversion approach is employed to invert Controlled Source Tensor MT (CSTMT) data for azimuthal anisotropy in a 1D layered earth. Impedance and tipper data are inverted jointly. The effects of near-surface inhomogeneities are parameterized in addition to each layer parameter(s). Application of the inversion algorithm to both synthetic and field data shows that the CSTMT method can be used to detect azimuthal anisotropy under realistic conditions with near surface lateral heterogeneities. Geophysics Airborne azimuthal anisotropy CSTMT distortion EM geothermal Hengill mineralization MT peaker resolution RMT tipper tensor VLF VLF Geofysik Geophysics Geofysik
293	Fault zones in potential geothermal reservoir rocks in the Upper Rhine Graben: Characteristics, permeability implications, and numerical stress field models Meier, Silke 03 May 2016 (has links) Störungszonen in den karbonatischen Wechselfolgen des Muschelkalks (Mittlere Trias) sind potenzielle Ziele für hydrothermale Projekte im Oberrheingraben (ORG). Es wurden verschiedene Methoden miteinander kombiniert, um die Permeabilitäts-Strukturen solcher Störungszonen, deren Spannungszustände und lokale Spannungsfelder abzuschätzen. Diese Arbeit kann damit zur Exploration von störungsgebundenen Muschelkalk-Reservoiren im ORG beitragen. Sie vergleicht diese mit einem bereits erfolgreich getesteten (störungsgebundenen) hydrothermalen Reservoir, den Sandsteinen des Buntsandsteins. Um für den Muschelkalk die Charakteristika von Störungszonen zu definieren und die zugehörige Permeabilitätsstruktur abzuschätzen, wurden verschiedene Störungszonentypen (z.B. Abschiebungen, invertierte Störungszonen, Schrägabschiebung) mit unterschiedlichen Maßstäben (Versatz: mittel-skalig 1-10 m, groß-skalig >10 m) detailliert untersucht. Eine Aufschlussanalogstudie zu einer groß-skaligen Störungszone (Schrägabschiebung) in dickbankigen Sandsteinen (Buntsandstein, Untere Trias) wurde zum Vergleich herangezogen. Der besondere Schwerpunkt lag jeweils auf der Charakterisierung von Bruchzone und Störungskern sowie des assoziierten Bruchsystems (Bruchdichte, Öffnungsweitenverteilung, Vernetzungsgrad, vertikale Ausdehnung). Die Daten zeigen, dass Bruchsysteme in eher homogenen Einheiten einen positiven Effekt auf die Reservoir-Permeabilität haben. Sie bieten, vor allem in der Nähe des Störungskerns, potenzielle Fließwege auch über mehrere Schichten und zeigen eine starke Vernetzung zwischen vergleichsweise kurzen Brüchen. Im Gegensatz dazu scheinen störungsgebundene Bruchsysteme in Einheiten mit einer starken mechanischen Schichtung einen geringeren Einfluss auf die Reservoirpermeabilität zu haben. Störungskerne zeigen stellenweise eine signifikante Komplexität, da sie vor allem abdichtende aber stellenweise auch durchlässige Strukturen aufweisen. Groß-skalige Störungszonen (im Reservoir-Maßstab) lassen sich für beide potenzielle Reservoirhorizonte am besten als kombinierte Barriere-Leiter-Systeme beschreiben. Diese Barriere-Leiter-Systeme zeichnen sich durch ein potenziell hydraulisch durchlässiges Bruchsystem in der Bruchzone (und im Buntsandstein zusätzlich in der Übergangszone) sowie einen schwach durchlässigen bis abdichtenden Störungskern aus. Um die Kenntnisse zum lokalen Spannungsfeld in Störungszonen im geschichteten Muschelkalk (Reservoirtiefe: 2.900 m) zu verbessern, wurden mit der Finite-Elemente-Software COMSOL Multiphysics® numerische 3D-Modelle erstellt. Es wurden deutliche Unterschiede des lokalen Spannungsfelds in Abhängigkeit von (1) der Orientierung, (2) dem Einfluss der maximalen Horizontalspannung SH im Spannungsregime, (3) Störungszonen-Maßstab und (4) den Kontrasten der mechanischen Eigenschaften festgestellt. In Spannungsregimen mit starker horizontaler Kompression wurde für Spannungsmagnituden und Versatz eine deutliche Abhängigkeit von der Orientierung der Störungszone festgestellt. Vor allem groß-skalige Störungszonen mit einem 30°-Winkel zu SH scheinen einen SH-induzierten Horizontalversatz innerhalb weicher Störungszoneneinheiten zu begünstigen; in dieser wurden die höchsten Versatzbeträge festgestellt. Die typische Abnahme von Spannungsmagnituden in weicheren Störungszoneneinheiten verringert sich in Richtung von Störungszonen, die senkrecht zu SH streichen. Der Einfluss der mechanischen Schichtung steigt mit zunehmender horizontaler Kompression, was zu einem vertikal heterogenen Spannungsfeld führt. Um Annahmen zu einer möglichen hydraulischen Aktivität einer Störungszone zu treffen, werden für die untersuchten Störungszonen analytische Abschätzungen zu Bewegungs- und Dehnungstendenzen unter Reservoir-Bedingungen präsentiert. Die Ergebnisse zeigen unterschiedliche Spannungszustände der analysierten Störungszonen, die auf das rezente Übergangsregime sowie unterschiedliche Orientierungen der maximalen Horizontalspannungen SH zurückzuführen sind. In dieser Arbeit präsentierte Ergebnisse von Aufschlussanalogstudien helfen dabei, fundierte Annahmen zur Permeabilitätsstruktur von Störungszonen zu treffen und damit vielversprechende Bohrziele im ORG zu definieren. In diesem Zusammenhang konnten sedimentäre Wechselfolgen identifiziert werden, die als potenzielle geothermische Reservoire ausgeschlossen werden können. Die Ergebnisse der numerischen 3D-Modellierungen können dazu beitragen, möglicherweise nötige Stimulationsmaßnahmen im Muschelkalk Reservoir optimal auszulegen. Darüber hinaus bieten die Ergebnisse die Möglichkeit, Einblick in potenzielle Probleme während der Bohrungsherstellung in Muschelkalk-Reservoiren zu bekommen, wie zum Beispiel die Wahrscheinlichkeit eines vertikal heterogenen Spannungsfeldes. 910 550 Fault zone Fault zone permeability Upper Rhine Graben Fractured reservoir Numerical stress field models Geothermal exploration Outcrop analogue study Fault zone internal structure
294	Investigation of the correlation of fracture frequency and electric resistivity in impact craters in crystalline rocks Bäckström, Ann January 2004 (has links) <p>Impact craters are formed when a large meteorite or comethits the Earth. At the impact a shock wave is released causingabundant fracturing in the surrounding bedrock. This type offracturing is intense and occurs throughout a very large volume(>100 km<sup>3</sup>) of the bedrock. Fractures of this type have beenobserved in deep drilling, to 5 km depth, in thePuchezh-Katunki Impact Crater. At theses depths the ambienttemperature is high. Thus impact structures are candidates forpotential heat-exchange sources for extraction of geothermalenergy.</p><p>There is a relation between fracture intensity and electricresistivity in bedrock predominated by impact-generatedfractures. In crystalline bedrock changes in electricresistivity is mainly due to fracturing which is the mainsource of porosity in these rocks. Electric resistivity methodsare highly sensitivity to porosity. Furthermore highfracture-intensities have generally been associated with lowelectric resistivity. Electro-magnetic methods like Very LowFrequency Resistivity (VLF-R) and Magnetotellurics (MT) canindirectly measure electric resistivity to relatively largedepths in the bedrock.</p><p>This study will quantify the relationship between fractureintensity and electric resistivity which can be used as aprospecting tool for geothermal energy resources at largedepth.</p><p>To meet that end, a method for fracture mapping on outcropsin Swedish terrain and a method to calculate thethree-dimensional fracture frequency from two-dimensionalfracture data has been developed. The fracture traces measuredin two dimensions on outcrops are assumed to represent avertical surface and must be converted to a three-dimensionalmeasure of the fracture frequency per unit volume. Spacing, dipand trace length of fractures have been accounted for. Thebiases associated with the mapping method have also beenaccounted for (II).</p><p>The correlation between impact-induced fracturing andelectric resistivity in crystalline rocks in the Lockne Areashows that the extent of impact fracturing in crystalline rockscan be measured with electro-magnetic or electric techniques.In addition the electric resistivity of crystalline basementand impact generated Tandsby Breccia from the Lockne Craterwere determined (I).</p><p>The relation between fracture frequency and electricresistivity in fresh water conditions using the VLF-R method isestablished from data collected from both two drill holes andfrom numerous outcrops in the Björkö region. Apreliminary quantification of the fracture frequency has beenmade. The MT resistivity models, related to the two drillholes, show that porosity and mineral-conductivity variationsof the bedrock affect this relation more than the salinityvariations in the bore-hole fluid. Further research is neededto establish a firm relation between fracture frequency,salinity of rock fluid, conductivity and porosity in order tovalidate the MT resistivity models (III).</p><p><b>Keywords:</b>Electric resistivity, Fracture frequency,Impact generated fractures, Electro-magnetic techniques, VLF-Rmethod, MT method, Window-mapping technique, Three-dimensionalfracture calculations, heat-exchange structure, geothermalenergy.</p> Electric resistivity Fracture frequency Impact generated fractures Electro-magnetic techniques VLF-R method MT method Window-mapping technique Three-dimensional fracture calculations heat-exchange structure geothermal energy
295	Performance of Deep Geothermal Energy Systems Manikonda, Nikhil 29 August 2012 (has links) Geothermal energy is an important source of clean and renewable energy. This project deals with the study of deep geothermal power plants for the generation of electricity. The design involves the extraction of heat from the Earth and its conversion into electricity. This is performed by allowing fluid deep into the Earth where it gets heated due to the surrounding rock. The fluid gets vaporized and returns to the surface in a heat pipe. Finally, the energy of the fluid is converted into electricity using turbine or organic rankine cycle (ORC). The main feature of the system is the employment of side channels to increase the amount of thermal energy extracted. A finite difference computer model is developed to solve the heat transport equation. The numerical model was employed to evaluate the performance of the design. The major goal was to optimize the output power as a function of parameters such as thermal diffusivity of the rock, depth of the main well, number and length of lateral channels. The sustainable lifetime of the system for a target output power of 2 MW has been calculated for deep geothermal systems with drilling depths of 8000 and 10000 meters, and a financial analysis has been performed to evaluate the economic feasibility of the system for a practical range of geothermal parameters. Results show promising an outlook for deep geothermal systems for practical applications. deep geothermal energy main well side channels lateral temperature gradient diffusivity thermal conductivity demand curve cost analysis drilling length total depth finite difference typical demand curve
296	Réservoirs hydro-géothermaux haute enthalpie : apport des propriétés pétrophysiques des basaltes / High enthalpy hydro-geothermal reservoirs : insights from basalt petrophysical properties Violay, Marie 03 December 2010 (has links) La géothermie est considérée comme une source d'énergie propre et inépuisable à échelle humaine. Actuellement, le rendement des centrales géothermiques est limité à l'exploitation de fluides de températures inférieures à 300°C. L'association de l'activité tectonique et volcanique aux dorsales océaniques fait de l'Islande un lieu où l'extraction de fluides supercritiques (T°>400°C) peut être envisagée. Cette exploitation pourrait multiplier par dix la puissance électrique délivrée par les puits géothermiques. Ces fluides peuvent-ils circuler dans la croûte océanique ? Ce travail propose de contraindre les observations géophysiques et de prédire le fonctionnement des réservoirs hydro-géothermaux de très haute température par l'étude des propriétés physiques des basaltes. La première approche est focalisée sur l'étude de roches ayant accueilli une circulation hydrothermale par le passé. L'étude de ces roches au site ODP 1256, montre que leur porosité est associée à la présence de minéraux d'altération hydrothermale du faciès amphibolite (T°>500°C ). La seconde approche a consisté à recréer en laboratoire les conditions des systèmes hydrothermaux à très haute température afin de prédire les propriétés mécaniques et électriques des basaltes dans ces conditions. Les résultats mécaniques indiquent que la transition fragile/ductile, souvent associée à une forte décroissance de perméabilité, intervient à une température d'environ 550°C. La mise en place d'une cellule de mesure de la conductivité électrique de haute températures a fournit les premiers résultats utiles à l'analyse des données géophysiques. Appliqués aux conditions de la croûte basaltique Islandaise, ces résultats indiquent que des fluides hydrothermaux pourraient circuler au moins transitoirement à l'état supercritique jusqu'à ~ 5 km de profondeur. / Geothermal energy is considered as a green and infinite energy source at human scale. Currently, the yield of geothermal power plants is limited to temperatures of the operating fluid which 300 °C. From tectonic and volcanic activity at mid-ocean ridges, Iceland is a locuswhere supercritical fluid extraction (T > 400° C) can considered for the near future. Exploiting such fluids could theoretically multiply by a factor of ten the electrical power delivered by geothermal wells. Can such fluids circulate at the base of brittle oceanic crust? This work investigates the petrophysical properties of basalts in order to constrain geophysical observations in Iceland and predict the behavior of very high temperature hydro-geothermal reservoirs. The first approach consisted in studying the physical properties of rocks that have hosted deep hydrothermal circulations at oceanic ridges. The study of these rocks at ODP Site 1256 shows that the porosity mea sured both in the field and in the lab is associated with amphibolite facies alteration minerals (T > 500° C). The second approach was to recreate in the laboratory the conditions of pressure, temperature and pore fluid pressure of high temperature to supercritical hydrothermal systems to predict the mechanical and electrical properties of basalts under these conditions. The mechanical results indicate that the brittle/ductile transition occurs at a temperature of about 550° C, where a strong permeability decrease is expected. The implementation and calibration of a new cell for measuring electrical conductivity at high temperature provide the first results for the interpretation of geophysical data. When applied to basaltic crustal conditions in Iceland, these results indicate that hydrothermal fluids could circulate, at least temporarily, in a supercritical state up to 5 km depth. Géothermie haute enthalpie Circulation hydrothermale Propriétés pétrophysiques Ride medio océanique Basalte Islande High enthalpy geothermal energy Hydrothermal circulation Petrophysical properties Mid oceanic ridge Basalt Iceland
297	Single-well tracer push-pull method development for subsurface process characterization / Early-time tracer injection-flowback test for stimulated fracture characterization, numerical simulation uses and efficiency for flow and solute transport Karmakar, Shyamal 15 June 2016 (has links) No description available. 910 550 Tracer test Geothermal EGS solute tracer sorptive tracer water fracture gel-proppant fracture single-well tests injection-flowback tests Hydrologie (PPN613605179)
298	Estudo experimental da resposta térmica de fundações por estacas trocadoras de calor em solo não saturado / An experimental study of the thermal response of heat exchanger piles in unsaturated tropical soil Bandeira Neto, Luis Antonio 08 December 2015 (has links) O estudo experimental apresentado nesta dissertação foi realizado para avaliar a resposta térmica de fundações por estacas trocadoras de calor, que podem ser usadas para reduzir o elevado consumo de energia em sistemas de condicionamento de ar no Brasil. A principal motivação para a produção deste trabalho foi a ausência de estudos sobre o desempenho térmico de estacas e/ou furos trocadores de calor em solo tropical, que é muito comum em nosso país. Para esta pesquisa, cinco ensaios de resposta térmica (TRT) foram realizados no Campo Experimental de Fundações da Universidade de São Paulo em São Carlos/SP, Brasil. A camada de solo superficial deste terreno consiste de solo tropical não saturado, composto de areia argilosa coluvial (laterítico) sobre um solo residual de arenito (saprolito). O ensaio in situ denominado TRT é o método experimental mais comum para a determinação das propriedades térmicas de sistemas de fundações por estacas trocadoras de calor. Os experimentos foram realizados em duas estacas escavadas, com 12 m de profundidade, equipadas com tubos trocadores de calor, instaladas em uma camada de solo com temperatura média em torno de 24°C. O principal objetivo deste trabalho foi avaliar a performance de estacas trocadoras de calor na condição de solo e clima investigados (alta temperatura do solo, solo laterítico não saturado com alta porosidade próximo a superfície). Também foram verificados os efeitos da posição do nível d\'água, da vazão da água circulante na estaca, e da duração do ensaio nas propriedades térmicas das estacas trocadora de calor avaliadas. Os resultados encontrados da taxa de troca de calor por metro de estaca neste estudo variam 79 a 110 W/m, portanto, estas estacas mostram bom potencial de transferência de calor no local investigado. Os resultados desse estudo fornece informações úteis para a avaliação da eficiência de estacas trocadoras de calor como um sistema de refrigeração em regiões tropicais e subtropicais brasileiras. / Brazil is the fifth largest buyer of air conditioner in the world because of its tropical and subtropical climate. To address this problem, the current experimental study was carried out to evaluate the thermal response of energy piles that can be used to reduce the high energy consumption in cooling systems in Brazil. The key factor that motivates this study is that unsaturated tropical soils cover a significant part of the Brazilian territory, and the thermal performance of heat exchanger piles in typical Brazilian soil and climate has not been investigated before. Five Thermal Response tests (TRT) were conducted for this research in the Geotechnical research field of the University of São Paulo at São Carlos/SP, Brazil, of unsaturated tropical soil, including a superficial layer composed of colluvial clayey sand (lateritic) overlaying in a residual sandstone soil (saprolitic). Thermal response tests are the most common experimental method for determining thermal properties of the energy foundation systems. The tests were performed on two drilled piles of 12m length equipped with heat transfer pipes, installed a soil layer with average temperature of 24°C. The main objective of this work was to obtain some data about the thermal energy delivery of energy piles in the soil and climate condition investigated herein (high ground temperature, unsaturated and tropical soil with high porosity). The effects of ground water table, flow rate, duration of test, and number of heat exchanger U-pipes on the thermal properties of the energy pile were also evaluated in this study. The thermal parameters obtained allowed a first evaluation about the thermal efficiency of the piles in the particular soil. The results of heat exchange rate found in this study vary from 79 to 110 W/m, therefore energy piles installed in the investigated site show good heat transfer potential. This study provides interesting information to the evaluation of heat exchange efficiency in energy foundations to be used as a cooling system in tropical and subtropical Brazilian regions. Clima subtropical Energia geotérmica Ensaio de resposta térmica Geothermal energy Heat exchanger piles Solo não saturado Subtropical climate Thermal response test Unsaturated soil
299	A vida microbiana em um vulcão antártico: diversidade e adaptação procariótica na Ilha Deception. / Microbial life on an antarctic volcano: prokaryotic diversity and adaptation in Deception Island. Bendia, Amanda Gonçalves 06 February 2017 (has links) Vulcões ativos na Antártica contrastam com a paisagem predominantemente gelada do continente. Eles fornecem condições únicas capazes de selecionar uma grande variedade de adaptações microbianas. A Ilha Deception localiza-se na região da Península Antártica e difere de outros vulcões antárticos especialmente pela influência marinha e temperaturas mais elevadas. Foram coletadas amostras de sedimentos associados a fumarolas e geleiras em dois sítios geotermais de Deception, com temperaturas variando entre 0°C a 98°C. Diferentes técnicas independentes de cultivo foram empregadas com o intuito de entender como as comunidades microbianas respondem as variações ambientais extremas produzidas pela atividade vulcânica. Os resultados indicaram que a co-ocorrência de arqueias hipertermófilas e suas adaptações com micro-organismos metabolicamente diversos adaptados a regiões geladas representa uma estrutura de comunidades única para ecossistemas antárticos. Este trabalho forneceu dados ineditos sobre questoes centrais de diversidade e adaptacao microbiana a ambientes geotermais polares. / Active volcanoes in Antarctica contrast with the predominately icy landscape. They harbor unique conditions capable to select an extreme range of microbial adaptations. Deception Island is located in the Antarctic Peninsula region and differs from other Antarctic volcanoes specially by its higher temperatures and marine influence. We collected sediment samples associated to active fumaroles and glaciers on two geothermal sites of Deception Island, with temperatures ranging from 0°C to 98°C. Different cultivation-indepedent techniques were used to understand how microbial communities respond to extreme environmental variations produced by volcanic activity. The results indicate that co-occurrence of hyperthermophiles and their specific adaptations with metabolically diverse cold-adapted micro-organisms represents a unique community structure for antarctic ecosystems. This study provided primordial data on central questions about microbial diversity and adaptation to polar geothermal environments. Adaptação Adaptation Ambientes geotermais Antarctica Antártica Compostos geoquímicos Diversidade microbiana Environmental gradients Extremófilos Extremophiles Fumarolas Fumaroles Geleiras Geochemical compounds Geothermal environment Glaciers Gradientes ambientais Microbial diversity Temperatura Temperature
300	Análise teórica e experimental do comportamento de um trocador de calor geotérmico Martins, William Marques 23 December 2015 (has links) Submitted by Silvana Teresinha Dornelles Studzinski (sstudzinski) on 2016-10-11T16:43:10Z No. of bitstreams: 1 William Marques Martins_.pdf: 6862880 bytes, checksum: 7ab899b6cdbfc9789b0b9a42720e96f6 (MD5) / Made available in DSpace on 2016-10-11T16:43:10Z (GMT). No. of bitstreams: 1 William Marques Martins_.pdf: 6862880 bytes, checksum: 7ab899b6cdbfc9789b0b9a42720e96f6 (MD5) Previous issue date: 2015-12-23 / FAPERGS - Fundação de Amparo à Pesquisa do Estado do Rio Grande do Sul / UNISINOS - Universidade do Vale do Rio dos Sinos / Este trabalho apresenta um estudo teórico e experimental de um trocador de calor geotérmico, tipo helicoidal água-solo, para uso como condensador em um sistema de ar condicionado. Para o experimento foi construída uma bancada composta basicamente por um reservatório térmico, uma bomba d’água, medidor de vazão, um trocador de calor com serpentina tipo helicoidal com comprimento e diâmetro de 3 e 0,27 m, respectivamente e enterrado verticalmente no solo no sentido do comprimento. Foi utilizado um sistema de aquisição de dados conectado a um computador para monitorar sete sensores de temperatura: quatro para o trocador e três para a sonda térmica de medição das temperaturas do solo em três profundidades. Os resultados obtidos com o experimento foram utilizados para obtenção da condutividade térmica do solo e, posteriormente, utilizados na comparação com o modelo teórico, elaborado no software EES. A diferença entre os resultados medidos da taxa de transferência de calor e o resultado calculado ficou em torno de 1%. O modelo também foi utilizado para analisar alguns exemplos como calcular a altura necessária do trocador de calor para atender uma determinada demanda de potência térmica para o caso de substituição do condensador de um sistema de ar condicionado. Para isso foram utilizados os dados de um aparelho de ar condicionado tipo Split, com capacidade de refrigeração de 3,52 kW (12.000 Btu/h) para analisar o comportamento do trocador com diferentes condições de projeto, chegando-se a uma profundidade calculada de 37,11 metros para atender a esta demanda. / This work presents a theoretical and experimental study of a coil-type geothermal heat exchanger, water-soil, for use as condenser in an air conditioning system. An experimental bench was constructed to analyses the heat exchanger performance. This experimental facility consists of a thermal reservoir, a water pump and flow meter, a helical heat exchanger with length and diameter of 3 m and 0.27, respectively and buried vertically at this depth. During the experiments were monitored the temperatures in seven points: four in the heat exchanger and three for measuring the soil temperatures at three different depths. The results obtained with the experiments were used to obtain the thermal conductivity of the soil. The same data were used to validated the theoretical model that was implemented in the EES platform. The difference between the measured heat transfer rate and the theoretical results was about 1%. The model was also used to determine the required length of the heat exchanger to suit a particular thermal power demand for the replacement of a condenser of an air conditioning system. For this, we used the data from a split type air conditioning unit, with a condenser thermal capacity of 3,52 kW, and to analyze the behavior of the heat exchanger with various design conditions, coming to a calculated depth 37.11 meters to meet this demand. Trocador de calor geotérmico Bomba de calor Condicionador de ar Temperatura do solo Geothermal heat exchanger Heat pump Air conditioning Soil temperatures

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